Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.4.2.8 (hypoxanthine-guanine phosphoribosyltransferase)
 2,527 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Somatic cell hybrid clones were derived from the fusion of hypoxanthine phosphoribosyltransferase (HPRT; EC 2.4.2.8)-deficient mouse cells and two different human fibroblast strains, each carrying an X chromosome-autosome translocation. One of these had an X/11 translocation [46,X,t(X;11)(p21;q13)] and the other had an X/19 translocation [46,X,t(X;19)(q22;q13)]. The structurally normal human X chromosome is the late-replicating (genetically inactive) chromosome in these two cell strains; the rearranged X chromosome is early replicating (genetically active). One primary hybrid clone carrying both the translocated X chromosome and the structurally normal X chromosome was isolated in hypoxanthine/aminopterin/thymidine medium from each of these two cell fusion experiments. These clones were then selected in medium containing 8-azaguanine to achieve the loss of the active human HPRT locus. Five subclones from the cell hybrid with the X/11 translocation failed to express two known human X-chromosome markers [glucose-6-phosphate dehydrogenase (G6PD; EC 1.1.1.49) and phosphoglycerate kinase (PGK; EC 2.7.2.3)] but did express human microsomal steroid sulfatase (STS; sterol-sulfate sulfohydrolase, EC 3.1.6.2). Three of these were cytogenetically analyzed and found to contain a structurally normal human X chromosome but not the X/11 translocation. Two subclones were isolated in 8-azaguanine from the hybrid with the X/19 translocation. Cytogenetic analysis of these two clones showed the presence of a structurally normal human X chromosome; the X/19 translocation was not present. They did not express human G6PD, PGK, or HPRT but did express human STS. These results indicate that human STS is expressed from a locus on the inactive human X chromosome and support our earlier finding that the STS locus escapes X-inactivation in man.
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PMID:Expression of an X-linked gene from an inactive human X chromosome in mouse-human hybrid cells: further evidence for the noninactivation of the steroid sulfatase locus in man. 693 82

The role of DNA modification in the maintenance of mammalian X-chromosome inactivation was investigated by using the technique of DNA transformation in mammalian cells. The ability of inactive X-chromosome DNA from adult mouse tissues to act in transformation for the X-linked hypoxanthine phosphoribosyltransferase gene (Hprt) could be ascertained by utilizing a recently discovered electrophoretic variant form of the hypoxanthine phosphoribosyltransferase enzyme and a previously available X:autosome translocation. Our findings indicate that inactive X-chromosome DNA from several tissues of adult female mice is strikingly inefficient, in comparison to active X-chromosome DNA, in eliciting genetic transformation for hypoxanthine phosphoribosyltransferase. These results provide in vivo evidence that is consistent with DNA modification playing an important role in the maintenance of X-chromosome inactivation.
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PMID:Evidence for DNA modification in the maintenance of X-chromosome inactivation of adult mouse tissues. 695 68

Cells of the V79-4 Chinese hamster line were found to have a consistent set of 20 chromosomes. G- and C-band analysis showed that, compared to the standard 22 chromosome set of freshly isolated Chinese hamster cells, the V79-4 chromosomes had various characteristic deletions and rearrangements. However, it is probable that at least one copy of each autosome was still present, and three pairs of autosomes appeared unchanged from those in the freshly isolated cells. The establishment of this karyotype for V79-4 allows mutant sublines to be screened for chromosomal changes associated with the altered phenotype, and an example is given of a radiation-induced mutant lacking HPRT activity that had a clear X-chromosome rearrangement.
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PMID:The chromosomes of a V79 Chinese hamster line and a mutant subline lacking HPRT activity. 719 10

Human diploid fibroblasts serially cultured in vitro show a progressive decline in their proliferative capacity. Much before the cells cease to divide, changes in certain phenotypic parameters can also be detected with passage level. A progressive decline in the ratio of two enzyme activities in the purine salvage pathway, one an X-linked enzyme, hypoxanthine-guanine phosphoribosyltransferase (HGPRT) and the other a biochemically related autosomal-linked enzyme, adenine phosphoribosyltransferase (APRT) becomes apparent with increasing population doublings. The more extensive relative decline in HGPRT activity with passage may be explained on gene dosage effects subsequent to the random inactivation of one X-chromosome in the somatic cells of mammalian females; however, other interpretations can be considered. Since the enzyme activity ratio of HGPRT/APRT decreases linearly with population doubling, it could be useful for the evaluation of the biological "age" of serially passaged cultures. Studies of X-linked processes in human diploid cells and its variations during the life-span in culture may contribute to our understanding of some of the mechanisms of "senescence/change" and of the etiology of certain maturity onset disorders.
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PMID:X-linked processes in serially passaged "aging" human diploid cells. 720 94

Whole genomic hprt clones were used in Southern analysis to screen the integrity of the hprt gene in a family that includes a patient with HPRT enzyme deficiency causal to Lesch-Nyhan syndrome. A 5 kb DNA sequence deletion was found to have its endpoints in the first and third introns. The probes identified the carrier status of female family members, aided by an RFLP carried by the mother's normal X-chromosome.
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PMID:Southern analysis reveals a large deletion at the hypoxanthine phosphoribosyltransferase locus in a patient with Lesch-Nyhan syndrome. 758 56

The restriction fragment length polymorphisms (RFLP) of the X-chromosome phosphoglycerate kinase (PGK) and hypoxanthine phosphoribosyltransferase (HPRT) genes were used to study the clonal basis of the chronic myeloproliferative disorders (CMPD). Analyses were performed on granulocyte and T-lymphocyte fractions obtained from 24 females; 13 had essential thrombocythaemia (ET), eight polycythaemia vera (PV) and three myelofibrosis with myeloid metaplasia (MMM). All 24 of these patients had monoclonal patterns of X-inactivation in the granulocyte fraction. For the T-lymphocyte fraction, non-clonal patterns of X-inactivation were observed in 8/13 patients with ET, 7/8 with PV and 1/3 with MMM, while the remaining eight subjects were found to have monoclonal patterns of X-inactivation. Our findings suggest that the majority of the CMPD in these patients originated from a relatively committed progenitor cell without the capacity to differentiate into T cells, and convincingly demonstrated heterogeneity of lineage involvement.
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PMID:Clonality in chronic myeloproliferative disorders defined by X-chromosome linked probes: demonstration of heterogeneity in lineage involvement. 798 39

Clonal haemopoiesis has previously been demonstrated in some 30% of patients in remission of acute myeloid leukaemia (AML). Whilst a 'clonal remission' in many such patients may represent a skewed X-chromosome inactivation pattern in haemopoietic cells, its relationship to an underlying preleukaemic state remains uncertain. We therefore analysed the clonal status of 48 female patients in remission of AML using X-chromosome linked restriction fragment length polymorphisms (RFLPs) within the X-linked PGK and HPRT genes and the DXS255 (M27 beta) locus, and carried out in conjunction a detailed study of the morphological and karyotypic features of the patients' bone marrows. During remission, 35 patients (73%) with AML demonstrated nonclonal haemopoiesis, and their bone marrows were morphologically normal. Remission haemopoietic tissue in nine cases (19%) showed a skewed X-chromosome inactivation pattern and remission bone marrows in these patients had features of trilineage myelodysplasia (TMDS), with seven having similar features at presentation. Analysis of constitutional DNA showed a non-clonal pattern in seven of these patients, but was unsuccessful in two cases. These nine patients with post-chemotherapy TMDS were considered to have true clonal haemopoiesis. Four patients (8%) with a skewed X-chromosome inactivation pattern had normal remission bone marrows. Analysis of constitutional DNA showed a skewed pattern in two of these patients, but was unsuccessful in two cases. Cytogenetic investigation during remission in the nine patients with TMDS showed a normal karyotype in four cases and the acquisition of new karyotypic abnormalities in three cases. In contrast, 10 female patients in remission of de novo acute lymphoblastic leukaemia (ALL) were shown to have non-clonal haemopoiesis. We conclude that the majority of patients with AML who achieve remission after cytoreductive chemotherapy have non-clonal haemopoiesis, and when clonal remissions are observed these are commonly associated with the development of trilineage myelodysplasia in the bone marrow, with or without karyotypic abnormalities. True clonal remission in association with morphologically normal haemopoiesis is a rare entity, the significance and frequency of which remain uncertain.
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PMID:Clonal remissions in acute myeloid leukaemia are commonly associated with features of trilineage myelodysplasia during remission. 791 32

Inactive-X-chromosome genes in mammalian females have methylated CpG islands. We have questioned whether there are variable levels of cytosine methylation at different CpG sites within the island that might indicate the presence of primary sites of methylation which may be critical for the maintenance of gene repression and candidate sites for the initiation of inactivation. To address these questions, we have analyzed the methylation patterns of 32 CpG sites of the X-linked hypoxanthine phosphoribosyltransferase (Hprt) gene on the active and inactive X chromosomes of mouse tissues and cell lines, using genomic sequencing of bisulfite-treated genomic DNA. Cytosine is deaminated by bisulfite, but methylcytosine is not affected. Cell lines that were heterozygous for the Hprt deletion mutation (Hprtb-m3) and a functional Hprt allele were selected with 6-thioguanine. The resulting cell populations uniformly carry the intact Hprt allele on the inactive X chromosome. The methylation of these CpG sites was determined either by the direct sequence analysis of bisulfite-treated and amplified DNA or by the sequence analysis of clones derived from the amplified DNA. No CpG methylation was detected on the active Hprt genes from either males or the active X chromosome of females. On average, 22 CpGs were methylated in the other 50% of female DNA, and the level of methylation at individual sites varied from 42 to 100%. Analysis of the inactive Hprt gene in two cell lines showed that averages of 14 and 18 CpGs were methylated and that the frequency of methylation at 32 individual sites ranged from 3 to 100%. The highest frequency of methylation in cell lines coincided with the sequences flanking transcription initiation sites. These results suggest that methylation patterns are heterogeneous within a tissue and even in clonal cell populations and that specific subsets of CpG sites sustain high methylation frequencies which may be critical for the maintenance of X-chromosome inactivation. The bisulfite method identified which CpG sites were methylated on the inactive X chromosome, and it provided a quantitative estimate of the frequency of methylation of these sites in genomic DNA.
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PMID:CpG island promoter region methylation patterns of the inactive-X-chromosome hypoxanthine phosphoribosyltransferase (Hprt) gene. 796 37

The basis of a previously observed difference in the level of contribution of hypoxanthine phosphoribosyltransferase-deficient cells between the haematopoietic and non-haematopoietic tissues of chimaeric and heterozygous mice has been clarified by studying two populations of female mice that differ only in that one is heterozygous for a null allele at the hprt locus and the other is wild type at this locus. Both populations are heterozygous for an electrophoretic variant allele at the X-linked Pgk-1 locus, so that X-chromosome inactivation generates cells expressing different isozymes of phosphoglycerate kinase which can be assayed to monitor cell selection. The results show that hypoxanthine phosphoribosyltransferase deficiency itself, rather than an effect of another X-linked gene, causes a reduced level of contribution to haematopoietic tissues. Further, the extent of the depletion increases significantly with age, and this effect is due to a progressive reduction in the level of contribution to haematopoietic tissues rather than to an increase in the level of contribution to non-haematopoietic tissues.
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PMID:Age-dependent selection against hypoxanthine phosphoribosyl transferase-deficient cells in mouse haematopoiesis. 807 22

Analysis of X-chromosome inactivation patterns in females has been used to assess clonality of various tumours and for prenatal diagnosis of X-linked disorders. Studies with these methods in acute myeloid leukaemia suggest that a significant proportion of cases have clonal remissions (ie, persistence of the malignant clone), which may represent return to a preleukaemic state. We therefore analysed X-chromosome inactivation patterns with differential methylation patterns of heterozygotes for three DNA probes, HPRT, PGK, and M27 beta, in leukaemic patients and normal controls. As expected, blast cells from 67 of 68 analysable samples (99%) were monoclonal or had a skewed X-inactivation pattern. A skewed pattern in remission was also found in 26 of 77 patients (34%), proportion only slightly greater than control (16/75, 21%). In 7 of 10 patients with a skewed pattern in myeloid cells there was similar skewing in the T cells, which is compatible with the concept of a constitutively skewed X-chromosome inactivation pattern of haemopoietic cells in these patients. Our study illustrates the difficulty of interpreting clonality in individual tumour samples and emphasises the importance of comparisons with non-malignant tissue of the same cell type from that individual and from normal control populations.
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PMID:Frequency of clonal remission in acute myeloid leukaemia. 809 44


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